CN110805110A - Regional rainwater storage purifies transport formula sponge city management system - Google Patents

Abstract

A regional rainwater storage purification conveying type sponge city management system comprises a permeable formation, a water storage layer, a filling device, a conveying device, a regional controller and a general control server, wherein a steel frame layer and a water drawing sponge layer are arranged below the permeable formation, two ends of the water drawing sponge layer are provided with an extrusion hydraulic pump, an extrusion hydraulic rod and an extrusion plate, the water storage layer comprises a water gathering port, a water gathering pipeline, a water storage pool and a water conveying pipe, the filling device comprises a liquid filling machine, a telescopic liquid outlet, a liquid storage tank, a telescopic liquid drawing port, a liquid drawing pump and a sanitary water supply pipeline, the conveying device comprises an electromagnetic conveying pipeline, an electromagnetic return pipeline, a deceleration receiving pipeline, a buffering electromagnetic sheet, a lifting mechanism, a return platform, a reset mechanism and an electromagnetic platform, the regional controller is arranged in each region of a city plan, and the general control server is arranged at a placing position planned by a; automatically treating sewage existing on the urban ground, purifying, collecting and storing the sewage, and then supplying the sewage to urban sanitary water.

Description

Regional rainwater storage purifies transport formula sponge city management system

Technical Field

The invention relates to the field of sponge cities, in particular to a regional rainwater storage and purification conveying type sponge city management system.

Background

The sponge city is a new generation of city rainfall flood management concept, and refers to a city which can be like a sponge and has good elasticity in the aspects of adapting to environmental changes, coping with natural disasters caused by rainwater and the like, and the city can also be called as a water elasticity city. The international general term is 'low-impact development of rainwater system construction', water absorption, water storage, water seepage and water purification are carried out when raining, and the stored water is released and utilized when needed, so that rainwater can freely migrate in cities. From the ecological system service, the water ecological infrastructure is constructed through cross-scale construction and is constructed by combining various specific technologies, and the water ecological infrastructure is the core of a sponge city.

The sponge city material is substantially applied, has the characteristics of excellent water seepage, compression resistance, wear resistance, skid resistance, environmental protection, attractive and colorful appearance, comfort, easy maintenance, sound absorption, noise reduction and the like, becomes a breathable town landscape pavement, effectively relieves the urban heat island effect, and ensures that the urban pavement does not generate heat any more.

However, how to combine together sponge city and building health water supply system, collect ground sewage in real time and purify sewage, then with purifying water filling to the liquid reserve tank in and carry the liquid reserve tank electromagnetism to the position below the building with higher speed, the rethread liquid reserve tank will purify the water and lead to in the health water supply system of building to save urban hydraulic resources is the problem that needs to solve at present urgently.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the background art, the embodiment of the invention provides an area type rainwater storage and purification conveying type sponge city management system, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

a regional rainwater storage purification conveying type sponge city management system comprises permeable layers, a water storage layer, a filling device, a conveying device, a regional controller and a general control server, wherein the permeable layers are divided into a plurality of regions in a city, each permeable layer in each region sequentially comprises a permeable asphalt layer, a permeable concrete layer, a sandstone layer, a purification layer and a permeable brick layer from top to bottom, and the purification layer comprises a PP cotton filter layer, a UDF activated carbon particle layer, a CTO compressed activated carbon particle layer, an UF layer and a volcano stone layer;

a steel frame layer and a water-absorbing sponge layer are arranged below the permeable layer, and the steel frame layer is arranged below the permeable brick layer and used for placing the water-absorbing sponge layer; the water drawing sponge layer is arranged at the inner position of the steel frame layer and is used for drawing liquid seeped out from the permeable brick layer; the two ends of the water drawing sponge layer are provided with extrusion hydraulic pumps, extrusion hydraulic rods and extrusion plates, and the extrusion hydraulic pumps are arranged at the inner positions of the two ends of the water drawing sponge layer, connected with the extrusion hydraulic rods and used for driving the connected extrusion hydraulic rods to stretch; the extrusion hydraulic rod is respectively connected with the extrusion hydraulic pump and the extrusion plate and is used for driving the connected extrusion plate to stretch; the extrusion plate is arranged at the front end of the extrusion hydraulic rod and used for extruding the water drawing sponge layer to extrude liquid into the water gathering port;

the water storage layer comprises a water collecting port, a water collecting pipeline, a water storage pool and a water delivery pipe, the water collecting port is arranged at the position below the water drawing sponge layer and connected with the water collecting pipeline, the water collecting pipeline is respectively connected with the water collecting port and the water storage pool, the water storage pool is respectively connected with the water collecting pipeline and the water delivery pipeline, and the water delivery pipeline is respectively connected with the water storage pool and the liquid filling machine;

the filling device comprises a liquid filling machine, a telescopic liquid outlet, a liquid storage tank, a telescopic liquid sucking port, a liquid sucking pump and a sanitary water supply pipeline, wherein the liquid filling machine is arranged at the inner position of the head end of the electromagnetic conveying pipeline and connected with the telescopic liquid outlet and is used for filling liquid into the liquid storage tank through the connected telescopic liquid outlet; the telescopic liquid outlet is arranged at the side end position of the liquid filling machine and corresponds to a liquid injection port of the liquid storage bin at the head end position of the electromagnetic conveying pipeline; the liquid storage tank is positioned in the electromagnetic conveying pipeline, and a track roller is arranged below the liquid storage tank and used for conveying the stored liquid to the speed reduction receiving pipeline; the telescopic liquid sucking port is arranged at the head position of the electromagnetic return pipeline, is connected with the liquid sucking pump and is used for abutting against a liquid outlet of the liquid storage tank; the liquid suction pump is arranged at the inner position of the head end of the electromagnetic return pipeline, is respectively connected with the telescopic liquid suction port and the sanitary water supply pipeline, and is used for sucking liquid in the liquid storage tank through the telescopic liquid suction port and guiding the liquid into the connected sanitary water supply pipeline; the sanitary water supply pipeline is respectively connected with the liquid suction pump and the building sanitary water supply system;

the conveying device comprises an electromagnetic conveying pipeline, an electromagnetic return pipeline, a speed reduction receiving pipeline, a buffering electromagnetic sheet, a lifting mechanism, a return platform, a reset mechanism and an electromagnetic platform, wherein the electromagnetic conveying pipeline is arranged in the ground inside below the water storage tank; the electromagnetic return pipeline is arranged above the electromagnetic conveying pipeline; the deceleration receiving pipeline is provided with a plurality of deceleration receiving pipelines which are respectively arranged at the tail end of the electromagnetic conveying pipeline and the tail end of the electromagnetic return pipeline and used for providing electromagnetic damping to decelerate the liquid storage tank conveyed from the electromagnetic conveying pipeline or decelerate the liquid storage tank conveyed from the electromagnetic return pipeline; the buffer electromagnetic sheet is arranged at the bottom position of the speed reduction receiving pipeline and used for providing magnetic force which is the same as the side of the liquid storage tank so as to buffer the moving speed of the liquid storage tank; the lifting mechanism is arranged at the inner position of the bottom end of the electromagnetic return pipeline at the tail end of the electromagnetic conveying pipeline, is connected with the return platform and is used for driving the connected return platform to extend out of the electromagnetic return pipeline; the resetting mechanism is arranged at the inner position of the deceleration receiving pipeline at the tail end of the electromagnetic return pipeline, is connected with the electromagnetic platform and is used for conveying the electromagnetic platform to the interior of the electromagnetic conveying pipeline;

the regional controller is arranged in each region of the urban plan, is respectively connected with the extrusion hydraulic pump, the liquid filling machine, the telescopic liquid outlet, the telescopic liquid sucking port, the liquid sucking pump, the electromagnetic conveying pipeline, the buffer electromagnetic sheet, the electromagnetic return pipeline, the deceleration receiving pipeline, the lifting mechanism, the reset mechanism and the electromagnetic platform in the region, and is wirelessly connected with the master control server;

the master control server is arranged at the planned placement position of the city management center and is used for being in wireless connection with the regional controller of the city where the master control server is located and the city management center.

As a preferred mode of the present invention, the electromagnetic accelerating pipe and the electromagnetic return pipe are internally provided with an electromagnetic coil and a moving track, and the electromagnetic coil is provided at an internal position of the electromagnetic accelerating pipe and the electromagnetic return pipe and used for accelerating the liquid storage tank; the moving track is arranged in the inner positions of the electromagnetic accelerating pipeline and the electromagnetic return pipeline and used for providing movement of the liquid storage tank.

As a preferable mode of the invention, the conveying device further comprises a liquid returning mechanism, the liquid returning mechanism comprises a liquid returning bin, a first booster pump, a liquid returning pipeline and a ground liquid spraying head, and the liquid returning bin is arranged at the ground inner position where the road area exists and is connected with the water storage tank through a first water suction pump and a first water pipe; the first booster pump is arranged at the side position of the reverse liquid bin, is connected with the reverse liquid pipeline and is used for guiding liquid in the reverse liquid bin into the reverse liquid pipeline; the ground liquid spraying head is arranged at the inner position above the ground, is connected with the liquid return pipeline and is used for spraying liquid in the liquid return pipeline to the ground; the first water suction pump, the first booster pump and the ground liquid spraying head are connected with a zone controller in the zone where the first water suction pump, the first booster pump and the ground liquid spraying head are located.

As a preferable mode of the present invention, the liquid returning mechanism further includes a temperature sensor, and the temperature sensor is disposed at an inner position of the ground, connected to the zone controller in the zone where the temperature sensor is located, and configured to acquire temperature information of the ground.

As a preferable mode of the present invention, the transportation device further comprises a circulation mechanism, the circulation mechanism comprises a circulation bin, a second booster pump and a circulation pipeline layer, the circulation bin is disposed at a position inside the ground where public facilities exist and is connected to the water storage tank through a second suction pump and a second water pipe; the second booster pump is arranged at the side position of the circulating bin, is connected with the circulating pipeline layer and is used for boosting and conveying the liquid in the circulating bin into the circulating pipeline layer; the circulating pipeline layer is arranged at the inner position of the public facility, is connected with the second booster pump and is used for reducing the temperature of the outer surface of the public facility; and the second water suction pump and the second booster pump are connected with a zone controller in the zone.

As a preferable mode of the invention, the conveying device further comprises a distillation mechanism, the distillation mechanism comprises a third booster pump, a distillation pipeline and a distillation platform, the third booster pump is arranged at a side position of the circulation bin below the street lamp type public facility and is respectively connected with the distillation pipeline and a zone controller of the zone where the distillation pipeline is located, and the third booster pump is used for boosting and conveying liquid in the circulation bin into the distillation pipeline; the distillation pipeline is respectively connected with the third booster pump and the distillation platform and is used for conveying liquid into the distillation platform; the distillation platform is arranged at the top of a street lamp type public facility and used for distilling liquid.

As a preferred mode of the present invention, the distillation mechanism further comprises a liquid collection port, a purified water pipeline, a distillation bin and a touch water valve, wherein the liquid collection port is disposed at the tail end of the distillation platform, is respectively connected to the distillation platform and the purified water pipeline, and is configured to collect distilled water collected by the distillation platform; the purified water pipeline is respectively connected with the liquid collecting port and the distillation bin and is used for guiding the distilled water collected by the liquid collecting port into the distillation bin; the distillation bin is arranged below a street lamp type public facility and used for storing distilled water; the touch water valve is arranged at the position outside the distillation bin and used for guiding out the distilled water inside the distillation bin after being touched by a human body.

As a preferable mode of the present invention, the distillation mechanism further comprises a transparent glass cover which is provided at a position on top of the street lamp type public facility and wraps the distillation platform.

As a preferable mode of the present invention, the distillation mechanism further comprises an animal water supply pipe, an animal water sump and a drinking water head, wherein the animal water supply pipe is connected to the distillation sump and the animal water sump, respectively, and is used for introducing the liquid in the distillation sump into the animal water sump; the animal water bin is arranged at the bottom end of a street lamp type public facility and used for storing distilled water for animals to drink; the drinking head is arranged at the position below the animal water bin and connected with the animal water bin and used for supplying water for the animals.

In a preferred embodiment of the present invention, the front end of the drinking head is provided with a licking ball, and the licking ball is disposed at the front end of the drinking head and is used for animals to lick and lead out the distilled water at the position of the drinking head.

The invention realizes the following beneficial effects:

1. the permeable layer collects and purifies ground sewage in real time, purified water is stored in a water drawing sponge layer, extrusion plates at two ends of the water drawing sponge layer are controlled to stretch out and extrude the water drawing sponge layer as required to guide the purified water into a water storage tank through a water collecting port and a water collecting pipeline, then the purified water is guided into a liquid filling machine through a water conveying guide pipe and is filled into a liquid storage tank through a telescopic liquid outlet by a liquid filling machine, after the liquid storage tank is fully loaded, an electromagnetic coil inside an electromagnetic conveying pipeline is controlled to start to accelerate the liquid storage tank to a deceleration receiving pipeline, meanwhile, the corresponding deceleration receiving pipeline is controlled to start, the liquid storage tank is decelerated in real time and receives the liquid storage tank, after the liquid storage tank is completely received, a lifting mechanism is controlled to drive a return platform to place the liquid storage tank into an electromagnetic return pipeline at the upper end, and liquid in the liquid storage tank is drawn into a sanitary water supply pipeline through the telescopic liquid drawing, by the leading-in sanitary water supply system to the building of sanitary water supply pipeline in, in order to save city hydraulic resources, draw at the inside liquid of liquid reserve tank and accomplish the back, the solenoid of control electromagnetism return line carries the liquid reserve tank electromagnetism of vacant to being connected the limit speed reduction receiving tube way with higher speed, the speed reduction receiving tube that the simultaneous control corresponds starts, real-time speed reduction liquid reserve tank and receiving liquid reserve tank, receive at the liquid reserve tank and accomplish the back, the control machine that resets puts into the liquid reserve tank to the electromagnetism pipeline of lower extreme through the electromagnetism platform.

2. After the ground temperature exceeds a set temperature value, controlling a first booster pump to guide purified water in the liquid returning pipe into the ground liquid spraying head through a liquid returning pipe, and cooling the ground through the ground liquid spraying head; and meanwhile, the second booster pump is controlled to guide purified water in the circulating bin into the circulating pipeline layer, and the surface of the public facility is cooled through the circulating pipeline layer.

3. When the requirement exists, the third booster pump is controlled to guide purified water in the circulating bin into the distillation platform through the distillation pipeline, the purified water is distilled through the distillation platform to form distilled water to be attached to the upper surface of the distillation platform, the attached distilled water is guided into the liquid collecting port through the upper surface of the distillation platform and then is guided into the distillation bin through the purified water pipeline, and therefore the distilled water in the distillation bin is guided out through the touch water valve; simultaneously, the inside distilled water in distillation storehouse is led into to the animal sump in through the animal water supply pipe to this lets the animal obtain the inside distilled water in animal sump through licking the type ball of licking the water head position.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a connection relationship diagram of a sponge city management system according to an example of the present invention.

Fig. 2 is a first schematic view of a steel frame layer and a water-absorbing sponge layer according to an example of the present invention.

Fig. 3 is a second schematic view of a steel frame layer and a water-absorbing sponge layer according to an example of the present invention.

Fig. 4 is a schematic front end view of an electromagnetic delivery conduit and an electromagnetic return conduit according to one example of the present invention.

Fig. 5 is a first schematic cross-sectional view of a front end of an electromagnetic delivery conduit and an electromagnetic return conduit according to an example of the present invention.

Fig. 6 is a second schematic cross-sectional view of the front end of the electromagnetic delivery conduit and the electromagnetic return conduit according to one example of the present invention.

Fig. 7 is a schematic end view of an electromagnetic delivery conduit and an electromagnetic return conduit according to one example of the present invention.

Fig. 8 is a schematic cross-sectional view of the rear end of an electromagnetic delivery conduit and an electromagnetic return conduit according to one example of the present invention.

Fig. 9 is a schematic view of a reverse liquid tank provided in one example of the present invention.

Fig. 10 is a schematic view of the ground on which the ground liquid-jet head is located according to one example of the present invention.

Fig. 11 is a schematic diagram of a circulation bin provided by one example of the present invention.

FIG. 12 provides a schematic cross-sectional view of a layer of circulating piping for one example of the present invention.

Fig. 13 is a first schematic view of a distillation platform according to one example of the present invention.

Fig. 14 is a second schematic view of a distillation platform provided in accordance with one example of the present invention.

Fig. 15 is a schematic view of a distillation chamber and an animal water chamber according to an example of the present invention.

Wherein: 1. permeable layer, 3 filling device, 4 conveying device, 5 zone controller, 6 general control server, 10 steel frame layer, 11 water drawing sponge layer, 12 extruding hydraulic pump, 13 extruding hydraulic rod, 14 extruding plate, 20 water collecting port, 21 water collecting pipeline, 22 water storage tank, 23 water conveying pipe, 30 liquid filling machine, 31 telescopic liquid outlet, 32 liquid storage tank, 33 telescopic liquid drawing port, 34 liquid drawing pump, 35 sanitary water supply pipeline, 40 electromagnetic conveying pipeline, 41 electromagnetic return pipeline, 42 deceleration receiving pipeline, 43 buffer electromagnetic sheet, 44 lifting mechanism, 45 return platform, 46 resetting mechanism, 47 electromagnetic platform, 48 liquid returning mechanism, 49 circulating mechanism, 50 distilling mechanism, 480 liquid returning bin, 480-1 first water drawing pump, 480-2 first water pipe, 481. the system comprises a first booster pump, 482 a counter-liquid pipeline, 483 a ground liquid spraying head, 484 a temperature sensor, 490 a circulating bin, 490-1 a second water suction pump, 490-2 a second water pipe, 491 a second booster pump, 492 a circulating pipeline layer, 500 a third booster pump, 501 a distillation pipeline, 502 a distillation platform, 503 a liquid collecting port, 504 a water purifying pipeline, 505 a distillation bin, 506 a touch water valve, 507 an animal water supply pipe, 508 an animal water bin, 509 a drinking water head and 510 licking balls.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Unless otherwise defined, the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" is not to be interpreted as implying any or all combinations of one or more of the associated listed items.

Example one

As shown with reference to fig. 1-8.

Specifically, this embodiment provides a regional type rainwater storage purifies carried formula sponge city management system, including permeable formation 1, reservoir bed, filling device 3, conveyor 4, regional controller 5 and total accuse server 6, permeable formation 1 divides into a plurality of regions in the city, and permeable formation 1 in every region includes the pitch layer that permeates water, the concrete layer that permeates water, gravel layer, purification layer and the brick layer that permeates water from top to bottom in proper order, it includes PP cotton filter layer, UDF active carbon particle layer, CTO compression active carbon particle layer, UF layer and volcano stone layer to purify the layer.

A steel frame layer 10 and a water-absorbing sponge layer 11 are arranged below the permeable layer 1, and the steel frame layer 10 is arranged below the permeable brick layer and used for placing the water-absorbing sponge layer 11; the water-absorbing sponge layer 11 is arranged in the steel frame layer 10 and is used for absorbing liquid seeped out from the permeable brick layer; the two ends of the water drawing sponge layer 11 are provided with extrusion hydraulic pumps 12, extrusion hydraulic rods 13 and extrusion plates 14, and the extrusion hydraulic pumps 12 are arranged at the inner positions of the two ends of the water drawing sponge layer 11, connected with the extrusion hydraulic rods 13 and used for driving the connected extrusion hydraulic rods 13 to stretch; the extrusion hydraulic rod 13 is respectively connected with the extrusion hydraulic pump 12 and the extrusion plate 14 and is used for driving the connected extrusion plate 14 to stretch; the extrusion plate 14 is arranged at the front end of the extrusion hydraulic rod 13 and is used for extruding the water-drawing sponge layer 11 to extrude the liquid into the water-collecting opening 20.

Wherein the steel frame layer 10 is wrapped with a water-drawing sponge layer 11; the permeable brick layer is laid above the steel frame layer 10; the purification layer is used for purifying sewage on the ground so as to reach the standard of sanitary use, wherein the sanitary use refers to sanitary appliances such as a toilet bowl, a squatting pan and the like; the purified liquid is not directly introduced into a water supply system of a city to be separately supplied to a sanitary water system of each building of the city, that is, a water supply system connected to sanitary wares of the building.

The water storage layer comprises a water collecting port 20, a water collecting pipeline 21, a water storage pool 22 and a water delivery pipe 23, the water collecting port 20 is arranged below the water drawing sponge layer 11 and connected with the water collecting pipeline 21, the water collecting pipeline 21 is respectively connected with the water collecting port 20 and the water storage pool 22, the water storage pool 22 is respectively connected with the water collecting pipeline 21 and the water delivery pipe, and the water delivery pipe is respectively connected with the water storage pool 22 and the liquid filling machine 30.

The upper end of the water collecting port 20 is connected with the bottom of the steel frame layer 10 and is used for collecting liquid extruded by the water drawing sponge layer 11; the upper end of the water gathering pipeline 21 is connected with the water gathering port 20, the lower end of the water gathering pipeline is connected with the water storage tank 22, and the water gathering pipeline is used for guiding the liquid collected by the water gathering port 20 into the water storage tank 22 for storage; the liquid inlet end of the water pipe is connected with the water storage tank 22, and the liquid outlet end of the water pipe is connected with the liquid filling machine 30, and the water pipe is used for guiding the liquid in the water storage tank 22 into the liquid filling machine 30.

The filling device 3 comprises a liquid filling machine 30, a telescopic liquid outlet 31, a liquid storage tank 32, a telescopic liquid sucking port 33, a liquid sucking pump 34 and a sanitary water supply pipeline 35, wherein the liquid filling machine 30 is arranged at an inner position of the head end of the electromagnetic conveying pipeline 40 and connected with the telescopic liquid outlet 31 and is used for filling the liquid storage tank 32 with liquid through the connected telescopic liquid outlet 31; the telescopic liquid outlet 31 is arranged at the side end of the liquid filling machine 30 and corresponds to a liquid injection port of the liquid storage bin at the head end of the electromagnetic conveying pipeline 40; the liquid storage tank 32 is positioned in the electromagnetic conveying pipeline 40, and is provided with track rollers below the electromagnetic conveying pipeline for conveying the stored liquid to the deceleration receiving pipeline 42; the telescopic liquid drawing port 33 is arranged at the head end of the electromagnetic return pipeline 41, is connected with the liquid drawing pump 34, and is used for abutting against a liquid outlet of the liquid storage tank 32; the liquid suction pump 34 is disposed at an inner position of the head end of the electromagnetic return pipeline 41, is connected with the telescopic liquid suction port 33 and the sanitary water supply pipeline 35 respectively, and is used for sucking the liquid in the liquid storage tank 32 through the telescopic liquid suction port 33 and guiding the liquid into the connected sanitary water supply pipeline 35; the sanitary water supply pipeline 35 is connected with the liquid drawing pump 34 and the building sanitary water supply system respectively.

The liquid storage tank 32 comprises a tank body, a movable base, a driving motor, a track roller, a liquid injection port, a liquid outlet and a powerful magnet group, and the tank body is arranged above the movable base and connected with the movable base; the movable base is respectively connected with the box body and the track roller and is provided with a storage battery; the driving motor is connected with the track roller and is used for driving the connected track roller to run; the track roller drives the movable base to move at the positions of the movable tracks in the electromagnetic acceleration pipeline and the electromagnetic return pipeline 41; the liquid injection port is arranged at the side position of the box body and is used for being in abutting connection with the telescopic liquid outlet 31 and injecting liquid led in by the telescopic liquid outlet 31 into the box body; the liquid outlet is arranged at the lower end of the other side of the box body and is used for abutting against the telescopic liquid sucking port 33 and sucking the liquid in the box body through the telescopic liquid sucking port 33; the strong magnet group is arranged on the outer side surface of the box body; the box body is made of a material which can be adsorbed by a magnet; the notes liquid mouth and the liquid outlet of liquid reserve tank 32 all are provided with prevents the weeping layer, prevent that the weeping layer adopts and prevents the weeping design, can be to design telescopic switch formula, open it when needing to use again, seal it after the use.

The conveying device 4 comprises an electromagnetic conveying pipeline 40, an electromagnetic return pipeline 41, a speed reduction receiving pipeline 42, a buffer electromagnetic sheet 43, a lifting mechanism 44, a return platform 45, a reset mechanism 46 and an electromagnetic platform 47, wherein the electromagnetic conveying pipeline 40 is arranged at the inner position of the ground below the water storage tank 22; the electromagnetic return pipeline 41 is arranged above the electromagnetic conveying pipeline 40; the deceleration receiving pipeline 42 is provided with a plurality of deceleration receiving pipelines and is respectively arranged at the tail end of the electromagnetic conveying pipeline 40 and the tail end position of the electromagnetic return pipeline 41 and used for providing electromagnetic damping to decelerate the liquid storage tank 32 conveyed from the electromagnetic conveying pipeline 40 or decelerate the liquid storage tank 32 conveyed from the electromagnetic return pipeline 41; the buffer electromagnetic sheet 43 is arranged at the bottom end of the deceleration receiving pipeline 42 and used for providing magnetic force which is the same as the magnetic force on the side of the liquid storage tank 32 so as to buffer the moving speed of the liquid storage tank 32; the lifting mechanism 44 is arranged at the inner position of the bottom end of the electromagnetic return pipeline 41 at the tail end of the electromagnetic conveying pipeline 40, is connected with the return platform 45, and is used for driving the connected return platform 45 to extend out of the electromagnetic return pipeline 41; the resetting mechanism 46 is arranged at an internal position of the deceleration receiving pipeline 42 at the tail end of the electromagnetic return pipeline 41 and connected with the electromagnetic platform 47, and is used for transporting the electromagnetic platform 47 to the interior of the electromagnetic conveying pipeline 40.

Wherein, buffering electromagnetism piece 43 adopts telescopic design, and when buffering electromagnetism piece 43 started, buffering electromagnetism piece 43 stretches out, and when buffering electromagnetism piece 43 stopped, buffering electromagnetism piece 43 shrink reset.

After the electromagnetic conveying pipeline 40 is started, a buffer electromagnetic sheet 43 in the deceleration receiving pipeline 42 connected with the electromagnetic conveying pipeline 40 is started to generate magnetic force with the same polarity as the side of the box body so as to buffer the moving speed of the liquid storage box 32; after the electromagnetic return pipeline 41 is started, a buffer electromagnetic sheet 43 in the deceleration receiving pipeline 42 connected with the electromagnetic return pipeline 41 is started to generate magnetic force with the same polarity as the lateral side of the box body so as to buffer the moving speed of the liquid storage box 32; a receiving channel is arranged above the deceleration receiving pipeline 42 connected with the electromagnetic conveying pipeline 40, and the receiving channel is respectively communicated with the deceleration receiving pipeline 42 connected with the electromagnetic conveying pipeline 40 and the head end of the electromagnetic return pipeline 41 above the electromagnetic conveying pipeline 40; a placing channel is arranged below the deceleration receiving pipeline 42 connected with the electromagnetic return pipeline 41, and the placing channel is respectively communicated with the deceleration receiving pipeline 42 connected with the electromagnetic return pipeline 41 and the head end of the electromagnetic conveying pipeline 40 below the electromagnetic return pipeline 41.

The lifting mechanism 44 comprises a lifting hydraulic pump and a lifting hydraulic rod, wherein the lifting hydraulic pump is arranged at an inner position below the tail end of the deceleration receiving pipeline 42 connected with the electromagnetic conveying pipeline 40, is connected with the lifting hydraulic rod, and is used for driving the connected lifting hydraulic rod to stretch; the lifting hydraulic rod is connected with the lifting hydraulic pump and the return platform 45 respectively, and is used for driving the return platform 45 connected with the lifting hydraulic rod to stretch.

The reset mechanism 46 comprises a reset moving track, a reset moving shell, a reset hydraulic pump, a reset hydraulic rod, a reset driving motor and a reset track roller, wherein the reset moving track is arranged at the top of the tail end of the deceleration receiving pipeline 42 connected with the electromagnetic return pipeline 41 and used for providing the movement of the reset track roller; the reset movable shell is positioned at the top of the tail end of the deceleration receiving pipeline 42 connected with the electromagnetic return pipeline 41 and is used for placing the liquid storage tank 32 in the deceleration receiving pipeline 42 connected with the electromagnetic return pipeline 41 at the head end of the electromagnetic conveying pipeline 40 below the electromagnetic return pipeline 41 through a placing channel; the reset hydraulic pump is arranged at the inner position below the reset movable shell, is connected with the reset hydraulic rod and is used for driving the connected reset hydraulic rod to stretch; the reset hydraulic rod is respectively connected with the reset hydraulic pump and the electromagnetic platform 47 and is used for driving the connected electromagnetic platform 47 to stretch; the reset driving motor is arranged at the inner position above the reset movable shell, is connected with the reset track roller and is used for driving the connected reset track roller to run; the reset track roller is positioned at the position of the reset moving track and connected with the reset moving shell, and is used for driving the connected reset moving shell to move at the position of the reset moving track.

The area controller 5 is arranged in each area of the urban plan, is respectively connected with the extrusion hydraulic pump 12, the liquid filling machine 30, the telescopic liquid outlet 31, the telescopic liquid sucking port 33, the liquid sucking pump 34, the electromagnetic conveying pipeline 40, the buffer electromagnetic sheet 43, the electromagnetic return pipeline 41, the deceleration receiving pipeline 42, the lifting mechanism 44, the resetting mechanism 46 and the electromagnetic platform 47 in the area, and is wirelessly connected with the master control server 6.

The general control server 6 is arranged at the planned placement position of the city management center and is used for being in wireless connection with the area controller 5 of the city where the general control server is located and the city management center.

In a preferred embodiment of the present invention, the electromagnetic acceleration duct and the electromagnetic return duct 41 are internally provided with an electromagnetic coil and a moving rail, and the electromagnetic coil is provided at a position inside the electromagnetic acceleration duct and the electromagnetic return duct 41 to accelerate the liquid storage tank 32; the moving track is disposed inside the electromagnetic acceleration pipe and the electromagnetic return pipe 41, and is used for providing movement of the liquid storage tank 32.

The regional rainwater storage and purification conveying type sponge city management system comprises the following working steps:

after receiving a starting instruction sent by the city management center, the master control server 6 sends a control signal to the connected regional controller 5; the control signal may be transmitted to the area controller 5 to which the designated area is connected, or may be transmitted to all the connected area controllers 5.

Sending an extrusion signal to a connected extrusion hydraulic pump 12 at intervals of set time according to a control signal by a zone controller 5, driving a connected extrusion hydraulic rod 13 by the extrusion hydraulic pump 12 according to the extrusion signal to extend a connected extrusion plate 14 so as to extrude and draw purified water adsorbed by a sponge layer, so that the purified water is extruded to the position of a water collecting port 20, and collecting the purified water by the water collecting port 20; the set time can be set by the city management center and contained in the starting instruction, and the water flow sensor can also be set to acquire water flow information, and intelligent setting is carried out according to the water flow.

When the extrusion hydraulic pump 12 is started, a liquid filling signal is sent to a connected liquid filling machine 30 and a telescopic liquid outlet 31 connected with the liquid filling machine, the telescopic liquid filling opening extends out according to the liquid filling signal and is in contact connection with a liquid filling opening of a liquid storage box 32 at the head end of an electromagnetic conveying pipeline 40, and then the liquid filling machine 30 fills purified water led in by a water conveying pipe 23 into a box body of the liquid storage box 32 through the telescopic liquid filling opening and the liquid filling opening of the liquid storage box 32 according to the liquid filling signal; wherein, telescopic notes liquid mouth front end is provided with ultrasonic ranging sensor, and after ultrasonic ranging sensor acquires that the distance is less than 5 centimetres between liquid surface and the telescopic notes liquid mouth front end, liquid filling machine 30 automatic stop, and the telescopic notes liquid mouth that this liquid filling machine 30 connects contracts completely.

After the liquid filling machine 30 automatically stops and the telescopic liquid filling port is completely contracted, the area controller 5 sends a liquid storage tank 32 conveying signal to the connected electromagnetic conveying pipeline 40 and sends a deceleration receiving signal to the deceleration receiving pipeline 42 connected with the electromagnetic conveying pipeline 40 and the buffer electromagnetic sheet 43 at the position of the deceleration receiving pipeline 42, and the electromagnetic conveying pipeline 40 controls the electromagnetic coil inside to start to electromagnetically accelerate and convey the liquid storage tank 32 into the deceleration receiving pipeline 42 according to the liquid storage tank 32 conveying signal; the deceleration receiving pipeline 42 is started to provide electromagnetic damping according to the deceleration receiving signal so as to decelerate the liquid storage tank 32 conveyed from the electromagnetic conveying pipeline 40 and receive the liquid storage tank 32 into the deceleration receiving pipeline 42, and meanwhile, the buffer electromagnetic sheet 43 is started to send out magnetic force with the same polarity as the front end of the liquid storage tank 32 according to the deceleration receiving signal so as to enable the buffer electromagnetic sheet 43 to have the same polarity as the front end of the liquid storage tank 32 to repel, thereby avoiding collision between the liquid storage tank 32 and the deceleration receiving pipeline 42; wherein, the inside speedtransmitter who is connected with the track gyro wheel that is provided with of liquid reserve tank 32 for acquire the speed information of liquid reserve tank 32.

The term "same polarity" means that the magnetism of the buffer electromagnetic sheet 43 is the same as the magnetism of the front end of the reservoir 32, and for example, the magnetism of the buffer electromagnetic sheet 43 is north when the magnetism of the front end of the reservoir 32 is north, so that the same polarities repel each other.

After the speed sensor in the liquid storage tank 32 acquires that the liquid storage tank 32 stops, the region controller 5 sends an adsorption signal to the buffer electromagnetic sheet 43 and sends a stop signal to the deceleration receiving pipeline 42, the buffer electromagnetic sheet 43 sends magnetic force with a different polarity from the front end of the liquid storage tank 32 according to the adsorption signal, so that the buffer electromagnetic sheet 43 adsorbs the front end of the liquid storage tank 32, and meanwhile, the deceleration receiving pipeline 42 enters a stop state according to the stop signal.

Here, the opposite polarity means that the magnetism of the buffer electromagnetic sheet 43 is different from the magnetism of the front end of the liquid storage tank 32, for example, the magnetism of the buffer electromagnetic sheet 43 is a north pole and the magnetism of the front end of the liquid storage tank 32 is a south pole, so that the same polarity attraction is generated.

After the speed sensor in the liquid storage tank 32 acquires that the liquid storage tank 32 stops again, the region controller 5 sends a stop signal to the buffer electromagnetic sheet 43 and sends an ascending signal to the lifting hydraulic pump of the lifting mechanism 44 in the deceleration receiving pipeline 42, the buffer electromagnetic sheet 43 enters a stop state according to the stop signal, and the lifting hydraulic pump of the lifting mechanism 44 drives the connected lifting hydraulic rod according to the ascending signal to drive the connected return platform 45 so as to enable the liquid storage tank 32 to enter the electromagnetic return pipeline 41 above the electromagnetic conveying pipeline 40 through the receiving channel; wherein a platform track identical to the moving track is provided above the return platform 45.

After the lifting hydraulic pump drives the lifting hydraulic rod to extend out, the area controller 5 sends a liquid suction supply signal to a telescopic liquid suction port 33 at the position of the electromagnetic return pipeline 41 and a liquid suction pump 34 connected with the telescopic liquid suction port 33, the telescopic liquid suction port 33 extends out and is inserted into the liquid outlet of the tank body of the liquid storage tank 32 according to the liquid suction supply signal, and the liquid suction pump 34 starts to pump purified water in the tank body of the liquid storage tank 32 according to the liquid suction supply signal and guides the pumped purified water into a sanitary water supply pipeline 35; wherein a one-way valve is arranged at the connection part of the sanitary water supply pipeline 35 and the liquid drawing pump 34, so that the liquid in the sanitary water supply pipeline 35 is prevented from flowing back to the position of the liquid drawing pump 34; the front end of the telescopic liquid drawing port 33 is also provided with an ultrasonic distance measuring sensor, when the distance between the liquid surface and the front end of the telescopic liquid drawing port 33 is less than 5 cm, the liquid drawing pump 34 automatically stops, and the telescopic liquid drawing port 33 connected with the liquid drawing pump 34 is completely contracted.

After the liquid drawing pump 34 stops and the telescopic liquid drawing port 33 is completely contracted, the area controller 5 sends a liquid storage tank 32 return signal to the electromagnetic return pipeline 41 and sends a recovery signal to the deceleration receiving pipeline 42 connected with the electromagnetic return pipeline 41 and the buffer electromagnetic sheet 43 at the position of the deceleration receiving pipeline 42, and the electromagnetic return pipeline 41 controls the electromagnetic coil inside to start to electromagnetically accelerate and convey the liquid storage tank 32 into the deceleration receiving pipeline 42 according to the liquid storage tank 32 return signal; the speed reduction receiving pipeline 42 is started according to the recovery signal to provide electromagnetic damping to reduce the speed of the liquid storage tank 32 conveyed by the electromagnetic return pipeline 41 and receive the liquid storage tank 32 to the speed reduction receiving pipeline 42, and meanwhile, the buffer electromagnetic sheet 43 is started according to the recovery signal to send magnetic force with the same polarity at the front end of the liquid storage tank 32, so that the same-polarity repulsive force between the buffer electromagnetic sheet 43 and the front end of the liquid storage tank 32 is enabled to avoid collision between the liquid storage tank 32 and the speed reduction receiving pipeline 42.

After the speed sensor in the liquid storage tank 32 obtains that the liquid storage tank 32 stops, the region controller 5 sends an adsorption signal to the buffer electromagnetic sheet 43 and a stop signal to the deceleration receiving pipeline 42, and sends a contraction reset signal to the lifting hydraulic pump, the buffer electromagnetic sheet 43 sends magnetic force with different polarity from the front end of the liquid storage tank 32 according to the adsorption signal, so that the buffer electromagnetic sheet 43 adsorbs the front end of the liquid storage tank 32, and the deceleration receiving pipeline 42 enters a stop state according to the stop signal; wherein the deceleration receiving pipeline 42 is the deceleration receiving pipeline 42 connected with the electromagnetic return channel, and the buffer electromagnetic sheet 43 is the buffer electromagnetic sheet 43 inside the deceleration receiving pipeline 42 connected with the electromagnetic return channel; after a speed sensor in liquid storage tank 32 acquires that liquid storage tank 32 is in a moving state for more than 5 seconds, the lifting hydraulic pump drives a connected lifting hydraulic rod to completely retract return platform 45 according to a retraction reset signal.

After the speed sensor in the liquid storage tank 32 acquires that the liquid storage tank 32 stops again, the region controller 5 sends a stop signal to the buffer electromagnetic sheet 43 and sends a reset signal to the resetting mechanism 46 and the electromagnetic platform 47 in the deceleration receiving pipeline 42, the buffer electromagnetic sheet 43 enters a stop state according to the stop signal, the electromagnetic platform 47 starts to enter an electromagnetic adsorption state according to the reset signal, the resetting hydraulic pump in the resetting mechanism 46 drives the reset hydraulic rod connected with the resetting hydraulic pump according to the reset signal to enable the electromagnetic platform 47 to be abutted against the upper surface of the liquid storage tank 32 so as to enable the liquid storage tank 32 to be electromagnetically adsorbed, then the resetting hydraulic rod connected with the resetting hydraulic pump in a driving mode completely contracts the electromagnetic platform 47 to enable the liquid storage tank 32 to ascend from the position of the moving track, and then the resetting driving motor drives the resetting track roller to drive the resetting moving shell to drive the liquid storage tank 32 to move to the position of the resetting moving track and reduce the liquid A placement channel inside quick-receiving conduit 42 corresponds to a position and then a reset hydraulic rod of the reset hydraulic pump drive connection drives the attached electromagnetic platform 47 fully extended to place the reservoir 32 in a travel track position inside the electromagnetic delivery conduit 40 below the electromagnetic return conduit 41.

After the reset hydraulic rod connected with the reset hydraulic pump drive is completely extended, the electromagnetic platform 47 releases the electromagnetic adsorption state, after the electromagnetic platform 47 releases the electromagnetic adsorption state, the reset hydraulic rod connected with the reset hydraulic pump drive is completely contracted, and after the complete contraction of the reset hydraulic rod is completed, the reset movable roller connected with the reset drive motor drive drives the reset movable shell to reset at the reset movable track position.

The regional controller 5 circularly executes to convey purified water for sanitation to the urban building in real time until the master control center sends a stop signal to the regional controller 5 after acquiring a stop instruction sent by the urban management center, or the purified water in the liquid storage tank is lower than one twentieth of the total height of the liquid storage tank; the ultrasonic ranging sensor is arranged at the top end inside the liquid storage tank and used for acquiring liquid height information inside the liquid storage tank.

Example two

Referring to fig. 1-2, fig. 9-12.

The present embodiment is substantially identical to the first embodiment, except that in the present embodiment, the delivery device 4 further comprises a liquid returning mechanism 48, the liquid returning mechanism 48 comprises a liquid returning chamber 480, a first pressurizing pump 481, a liquid returning pipeline 482 and a ground liquid spraying head 483, the liquid returning chamber 480 is disposed at a ground internal position where a road area exists and is connected with the water storage tank 22 through a first water suction pump 480-1 and a first water pipe 480-2; the first booster pump 481 is arranged at a side position of the reverse liquid chamber 480, is connected with the reverse liquid pipeline 482, and is used for guiding the liquid in the reverse liquid chamber 480 into the reverse liquid pipeline 482; the ground liquid spraying head 483 is arranged at an inner position above the ground, is connected with the liquid return pipeline 482 and is used for spraying liquid in the liquid return pipeline 482 to the ground; wherein the first water pump 480-1, the first booster pump 481 and the ground liquid spray head 483 are connected with the zone controller 5 of the zone.

The anti-liquid bin 480 is provided with a first inlet and a first outlet, a first water pipe 480-2 is arranged outside the first inlet, a first water pump 480-1 is arranged inside the first inlet, the first water pump 480-1 is connected with the first water pipe 480-2, the first water pipe 480-2 is respectively connected with the anti-liquid bin 480 and the water storage tank 22, purified water inside the water storage tank 22 is pumped through the first water pipe 480-2 after the first water pump 480-1 is started and is led into the anti-liquid bin 480, a first booster pump 481 is arranged inside the first outlet, and an anti-liquid pipeline 482 is arranged outside the first outlet; wherein, the upper surface of the ground liquid spraying head 483 is lower than the ground.

In a preferred embodiment of the present invention, the liquid-repellent mechanism 48 further includes a temperature sensor 484, and the temperature sensor 484 is disposed at an inner position of the floor surface, connected to the zone controller 5 in the zone, and acquires temperature information of the floor surface.

In a preferred embodiment of the present invention, the transportation device 4 further comprises a circulation mechanism 49, wherein the circulation mechanism 49 comprises a circulation chamber 490, a second booster pump 491 and a circulation pipeline layer 492, the circulation chamber 490 is disposed at a ground internal position where public facilities exist and is connected to the water storage 22 through a second suction pump 490-1 and a second water pipe 490-2; the second booster pump 491 is disposed at a side position of the circulation chamber 490 and connected to the circulation pipeline layer 492 for boosting and delivering the liquid in the circulation chamber 490 into the circulation pipeline layer 492; the circulation pipe layer 492 is disposed at an internal position of the utility and connected to the second booster pump 491 for reducing the temperature of the external surface of the utility; the second suction pump 490-1 and the second booster pump 491 are connected to the area controller 5 in the area.

The circulating bin 490 is provided with a second inlet and a second outlet, a second water pipe 490-2 is arranged outside the second inlet, a second water pump 490-1 is arranged inside the second inlet, the second water pump 490-1 is connected with the second water pipe 490-2, the second water pipe 490-2 is respectively connected with the circulating bin 490 and the water storage tank 22, purified water inside the water storage tank 22 is extracted through the second water pipe 490-2 and is introduced into the circulating bin 490 after the second water pump 490-1 is started, a second booster pump 491 is arranged inside the second outlet, and a circulating pipeline layer 492 is arranged outside the second outlet; wherein the circulating pipe layer 492 is closely attached to the external surface of the utility, thereby reducing the temperature of the external surface of the utility.

The regional rainwater storage and purification conveying type sponge city management system further comprises the following working steps:

receiving a control signal at a zone controller 5, sending a temperature identification signal to a connected temperature sensor 484 by the zone controller 5, starting the temperature sensor 484 according to a temperature identification signal, acquiring the ground temperature information of the zone in real time, and returning a cooling signal to the zone controller 5 if the temperature exceeds a preset temperature; wherein the preset temperature may be 30 ℃ to 40 ℃, and is preferably 35 ℃ in the embodiment.

The region controller 5 sends a pumping signal to a first water pump 480-1 and a second water pump 490-1 which are connected according to a cooling signal, the first water pump 480-1 starts to pump purified water inside the water storage tank 22 through a first water pipe 480-2 and guide the purified water into the liquid returning chamber 480 according to the pumping signal, and the second water pump 490-1 starts to pump purified water inside the water storage tank 22 through a second water pipe 490-2 and guide the purified water into the circulating chamber 490 according to the pumping signal; the top ends inside the liquid returning chamber 480 and the circulating chamber 490 are provided with ultrasonic distance measuring sensors, when the ultrasonic distance measuring sensors inside the liquid returning chamber 480 obtain that the height of the purified water inside the liquid returning chamber 480 exceeds one fifth of the total height of the liquid returning chamber 480, a liquid returning execution signal is fed back to the area controller 5, and when the ultrasonic distance measuring sensors inside the circulating chamber 490 obtain that the height of the purified water inside the circulating chamber 490 exceeds one fifth of the total height of the circulating chamber 490, a circulating execution signal is fed back to the area controller 5.

The zone controller 5 sends a reverse liquid supply signal to a first connected booster pump 481 according to a reverse liquid execution signal and sends a ground cooling signal to a ground liquid spray head 483, and the zone controller 5 sends a circulation supply signal to a second connected booster pump 491 according to a circulation execution signal; the first booster pump 481 is started to boost the purified water in the liquid returning bin 480 through the liquid returning pipeline 482 connected according to the liquid returning supply signal in real time and supply the pressurized purified water to the ground liquid spraying head 483 connected with the liquid returning bin, and the ground liquid spraying head 483 is started to spray the purified water supplied by the liquid returning pipeline 482 to the ground surface according to the ground temperature reducing signal in real time so as to carry out ground temperature reducing operation; the second booster pump 491 is started to boost and supply the purified water in the circulating bin 490 into the connected circulating pipeline in real time according to the circulating supply signal, and then the purified water in the circulating pipeline is guided into the circulating bin 490, so that the purified water is used as the outer surface of the public facility for cooling.

The public facilities can be public facilities such as street lamps, guardrails, bus station stools, the outer surfaces of public service kiosks, the outer surfaces of sentry boxes and the like; a circulation chamber 490 is provided below the public facilities of each set range set by the city management center.

EXAMPLE III

Referring to fig. 1, shown in fig. 13-15.

The present embodiment is substantially identical to the first embodiment, except that in the present embodiment, the conveying device 4 further includes a distillation mechanism 50, the distillation mechanism 50 includes a third booster pump 500, a distillation pipeline 501 and a distillation platform 502, the third booster pump 500 is disposed at a position lateral to the circulation chamber 490 below the street lamp type public facility and is respectively connected with the distillation pipeline 501 and the zone controller 5 in the region, and is used for conveying the liquid inside the circulation chamber 490 into the distillation pipeline 501 under pressurization; the distillation pipeline 501 is respectively connected with the third booster pump 500 and the distillation platform 502, and is used for conveying liquid to the interior of the distillation platform 502; the distillation platform 502 is provided at a top position of a street light type public facility for distilling liquid.

Wherein, the distillation platform 502 is composed of a distillation plate and a collection plate, the distillation plate is connected with the collection plate, and the collection plate is inclined.

As a preferred mode of the present invention, the distillation mechanism 50 further includes a liquid collecting port 503, a purified water pipeline 504, a distillation chamber 505 and a touch water valve 506, wherein the liquid collecting port 503 is disposed at the tail end of the distillation platform 502 and is respectively connected to the distillation platform 502 and the purified water pipeline 504, and is configured to collect the distilled water collected by the distillation platform 502; the purified water pipeline 504 is respectively connected with the liquid collecting port 503 and the distillation bin 505 and is used for guiding the distilled water collected by the liquid collecting port 503 into the distillation bin 505; the distillation bin 505 is arranged at a position below a street lamp type public facility and is used for storing distilled water; the touch water valve 506 is disposed at an outer position of the distillation bin 505 and is used for guiding out distilled water inside the distillation bin 505 after being touched by a human body.

Wherein the liquid collecting port 503 is connected with the collecting plate; the touch water valve 506 discharges the distilled water inside the distillation chamber 505 after being touched by a human body.

As a preferred mode of the present invention, the distillation mechanism 50 further comprises a transparent glass cover which is disposed at a top position of the street lamp type public facility and wraps the distillation platform 502.

In a preferred embodiment of the present invention, the distillation mechanism 50 further includes an animal water supply pipe 507, an animal water tank 508, and a water drinking head 509, wherein the animal water supply pipe 507 is connected to the distillation tank 505 and the animal water tank 508, respectively, and is configured to introduce the liquid in the distillation tank 505 into the animal water tank 508; the animal water bin 508 is arranged at the bottom end of a street lamp type public facility and is used for storing distilled water for animals to drink; the drinking head 509 is arranged below the animal water bin 508 and connected with the animal water bin 508 for supplying water for animals.

Wherein, a check valve is arranged inside the animal water supply pipe 507 to prevent distilled water inside the animal water supply pipe 507 from flowing back to the distillation bin 505.

In a preferred embodiment of the present invention, a licking ball 510 is disposed at a front end of the drinking head 509, and the licking ball 510 is disposed at a front end of the drinking head 509 and is used for providing a animal licking to lead out the distilled water at the position of the drinking head 509.

The regional rainwater storage and purification conveying type sponge city management system further comprises the following working steps:

the zone controller 5 sends a pressurization supply signal to the connected third booster pump 500 according to the circulation execution signal, and the third booster pump 500 starts to guide the purified water inside the circulation bin 490 to the distillation plate position of the connected distillation platform 502 through the connected distillation pipeline 501 according to the pressurization supply signal;

the purified water is evaporated to the surface of the collecting plate by the distillation plate of the distillation platform 502, then the distilled water is guided into the connected liquid collecting port 503 by the collecting plate, then is guided into the connected purified water pipeline 504 by the liquid collecting port 503 and is guided into the distillation bin 505 by the purified water pipeline 504, when a human body needs emergency drinking water, the touch water valve 506 of the distillation bin 505 is touched by a finger, and the liquid in the distillation bin 505 is discharged after being sensed by the touch water valve 506;

meanwhile, the distilled water in the distillation chamber 505 enters the animal water chamber 508 through the animal water supply pipe 507, and when the animal needs emergency drinking water, the distilled water in the animal water chamber 508 is obtained by licking the drinking water head 509 with the licking type ball 510.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. The utility model provides a regional type rainwater storage purifies carried formula sponge city management system, includes permeable formation (1), reservoir bed, filling device (2), conveyor (4), area controller (5) and total accuse server (6), permeable formation (1) divides into a plurality of regions in the city, and permeable formation (1) in every region includes the pitch layer that permeates water, the concrete layer that permeates water, gravel layer, purification layer and the brick layer that permeates water from top to bottom in proper order, it includes PP cotton filter layer, UDF active carbon particle layer, CTO compression active carbon particle layer, UF milipore filter layer and volcano stone layer to purify the layer, its characterized in that:

a steel frame layer (10) and a water-drawing sponge layer (11) are arranged below the permeable layer (1), and the steel frame layer (10) is arranged below the permeable brick layer and used for placing the water-drawing sponge layer (11); the water-absorbing sponge layer (11) is arranged in the steel frame layer (10) and is used for absorbing liquid seeped out from the permeable brick layer; the two ends of the water drawing sponge layer (11) are provided with an extrusion hydraulic pump (12), an extrusion hydraulic rod (13) and an extrusion plate (14), the extrusion hydraulic pump (12) is arranged at the inner positions of the two ends of the water drawing sponge layer (11) and connected with the extrusion hydraulic rod (13), and the extrusion hydraulic rod (13) used for driving the connection is telescopic; the extrusion hydraulic rod (13) is respectively connected with the extrusion hydraulic pump (12) and the extrusion plate (14) and is used for driving the connected extrusion plate (14) to stretch; the extrusion plate (14) is arranged at the front end of the extrusion hydraulic rod (13) and is used for extruding the water drawing sponge layer (11) to extrude liquid into the water gathering port (20);

the water storage layer comprises a water collecting port (20), a water collecting pipeline (21), a water storage pool (22) and a water delivery conduit (23), the water collecting port (20) is arranged below the water drawing sponge layer (11) and is connected with the water collecting pipeline (21), the water collecting pipeline (21) is respectively connected with the water collecting port (20) and the water storage pool (22), the water storage pool (22) is respectively connected with the water collecting pipeline (21) and the water delivery pipeline, and the water delivery pipeline is respectively connected with the water storage pool (22) and the liquid filling machine (30);

the filling device (2) comprises a liquid filling machine (30), a telescopic liquid outlet (31), a liquid storage box (32), a telescopic liquid sucking port (33), a liquid sucking pump (34) and a sanitary water supply pipeline (35), wherein the liquid filling machine (30) is arranged at the inner position of the head end of the electromagnetic conveying pipeline (40), is connected with the telescopic liquid outlet (31) and is used for filling liquid into the liquid storage box (32) through the connected telescopic liquid outlet (31); the telescopic liquid outlet (31) is arranged at the side end of the liquid filling machine (30) and corresponds to a liquid filling opening of the liquid storage bin at the head end of the electromagnetic conveying pipeline (40); the liquid storage tank (32) is positioned in the electromagnetic conveying pipeline (40) and provided with track rollers below the electromagnetic conveying pipeline for conveying the stored liquid to the deceleration receiving pipeline (42); the telescopic liquid drawing port (33) is arranged at the head end of the electromagnetic return pipeline (41), is connected with the liquid drawing pump (34) and is used for abutting against a liquid outlet of the liquid storage tank (32); the liquid drawing pump (34) is arranged at the inner position of the head end of the electromagnetic return pipeline (41), is respectively connected with the telescopic liquid drawing port (33) and the sanitary water supply pipeline (35), and is used for drawing liquid in the liquid storage tank (32) through the telescopic liquid drawing port (33) and guiding the liquid into the connected sanitary water supply pipeline (35); the sanitary water supply pipeline (35) is respectively connected with the liquid suction pump (34) and the building sanitary water supply system;

the conveying device (4) comprises an electromagnetic conveying pipeline (40), an electromagnetic return pipeline (41), a speed reduction receiving pipeline (42), a buffer electromagnetic sheet (43), a lifting mechanism (44), a return platform (45), a reset mechanism (46) and an electromagnetic platform (47), wherein the electromagnetic conveying pipeline (40) is arranged at the inner position of the ground below the water storage pool (22); the electromagnetic return pipeline (41) is arranged above the electromagnetic conveying pipeline (40); the deceleration receiving pipeline (42) is provided with a plurality of deceleration receiving pipelines which are respectively arranged at the tail end of the electromagnetic conveying pipeline (40) and the tail end of the electromagnetic return pipeline (41) and used for providing electromagnetic damping to decelerate the liquid storage tank (32) conveyed from the electromagnetic conveying pipeline (40) or decelerate the liquid storage tank (32) conveyed from the electromagnetic return pipeline (41); the buffer electromagnetic sheet (43) is arranged at the bottom end of the speed reduction receiving pipeline (42) and used for providing magnetic force with the same polarity as the side of the liquid storage tank (32) so as to buffer the moving speed of the liquid storage tank (32); the lifting mechanism (44) is arranged at the inner position of the bottom end of the electromagnetic return pipeline (41) at the tail end of the electromagnetic conveying pipeline (40), is connected with the return platform (45), and is used for driving the connected return platform (45) to extend out of the electromagnetic return pipeline (41); the resetting mechanism (46) is arranged at the inner position of the deceleration receiving pipeline (42) at the tail end of the electromagnetic return pipeline (41), is connected with the electromagnetic platform (47) and is used for transporting the electromagnetic platform (47) to the interior of the electromagnetic conveying pipeline (40);

the regional controller (5) is arranged in each region of the urban plan, is respectively connected with the extrusion hydraulic pump (12), the liquid filling machine (30), the telescopic liquid outlet (31), the telescopic liquid sucking port (33), the liquid sucking pump (34), the electromagnetic conveying pipeline (40), the buffer electromagnetic sheet (43), the electromagnetic return pipeline (41), the deceleration receiving pipeline (42), the lifting mechanism (44), the reset mechanism (46) and the electromagnetic platform (47) in the region, and is wirelessly connected with the master control server (6);

the master control server (6) is arranged at the planned placement position of the city management center and is used for being in wireless connection with the regional controller (5) of the city where the master control server is located and the city management center.

2. The regional rainwater storage and purification transportation type sponge city management system according to claim 1, wherein electromagnetic coils and moving tracks are arranged inside the electromagnetic acceleration pipeline and the electromagnetic return pipeline (41), and the electromagnetic coils are arranged inside the electromagnetic acceleration pipeline and the electromagnetic return pipeline (41) and used for accelerating the liquid storage tank (32); the moving track is arranged at the inner positions of the electromagnetic accelerating pipeline and the electromagnetic return pipeline (41) and is used for providing movement of the liquid storage box (32).

3. An area type rainwater storage and purification transportation type sponge city management system according to claim 1, wherein the transportation device (4) further comprises a liquid returning mechanism (48), the liquid returning mechanism (48) comprises a liquid returning bin (480), a first booster pump (481), a liquid returning pipeline (482) and a ground liquid spraying head (483), the liquid returning bin (480) is arranged at an inner position of the ground where a road area exists and is connected with a water storage pool (22) through a first water suction pump (480-1) and a first water pipe (480-2); the first booster pump (481) is arranged at the side position of the reverse liquid bin (480), is connected with the reverse liquid pipeline (482) and is used for guiding the liquid in the reverse liquid bin (480) into the reverse liquid pipeline (482); the ground liquid spraying head (483) is arranged at an inner position above the ground, is connected with the liquid return pipeline (482) and is used for spraying liquid in the liquid return pipeline (482) to the ground position; wherein the first water suction pump (480-1), the first booster pump (481) and the ground liquid spraying head (483) are connected with a zone controller (5) of the zone.

4. The regional rainwater storage and purification transport type sponge city management system according to claim 3, wherein the liquid-returning mechanism (48) further comprises a temperature sensor (484), and the temperature sensor (484) is arranged at an inner position of the ground and connected with a regional controller (5) of the region where the temperature sensor is arranged, and is used for acquiring temperature information of the ground.

5. A regional rainwater storage and purification transport type sponge city management system according to claim 1, wherein the transport device (4) further comprises a circulation mechanism (49), the circulation mechanism (49) comprises a circulation bin (490), a second booster pump (491) and a circulation pipeline layer (492), the circulation bin (490) is arranged at an inner position of the ground where the public facilities exist and is connected with the water storage pool (22) through a second suction pump (490-1) and a second water pipe (490-2); the second booster pump (491) is arranged at the side position of the circulating bin (490) and is connected with the circulating pipeline layer (492) and is used for boosting and conveying the liquid in the circulating bin (490) into the circulating pipeline layer (492); the circulation pipeline layer (492) is arranged at the internal position of the public facility and is connected with a second booster pump (491) for reducing the temperature of the external surface of the public facility; the second water suction pump (490-1) and the second booster pump (491) are connected with a zone controller (5) of the zone.

6. The regional rainwater storage and purification transportation type sponge city management system according to claim 1, wherein the transportation device (4) further comprises a distillation mechanism (50), the distillation mechanism (50) comprises a third pressurizing pump (500), a distillation pipeline (501) and a distillation platform (502), the third pressurizing pump (500) is arranged at a position at the side of the circulation bin (490) below the street lamp type public facility and is respectively connected with the distillation pipeline (501) and a regional controller (5) of the region, and is used for pressurizing and transporting the liquid in the circulation bin (490) into the distillation pipeline (501); the distillation pipeline (501) is respectively connected with a third booster pump (500) and the distillation platform (502) and is used for conveying liquid to the interior of the distillation platform (502); the distillation platform (502) is arranged at a top position of a street light type public facility and is used for distilling liquid.

7. The regional rainwater storage and purification delivery type sponge city management system according to claim 6, wherein the distillation mechanism (50) further comprises a liquid collection port (503), a purified water pipeline (504), a distillation bin (505) and a touch water valve (506), the liquid collection port (503) is arranged at the tail end of the distillation platform (502) and is respectively connected with the distillation platform (502) and the purified water pipeline (504) for collecting the distilled water collected by the distillation platform (502); the purified water pipeline (504) is respectively connected with the liquid collecting port (503) and the distillation bin (505) and is used for guiding the distilled water collected by the liquid collecting port (503) into the distillation bin (505); the distillation bin (505) is arranged at a position below a street lamp type public facility and is used for storing distilled water; the touch water valve (506) is arranged at the position outside the distillation bin (505) and used for guiding out the distilled water inside the distillation bin (505) after being touched by a human body.

8. An area-type rainwater storage and purification transport type sponge city management system according to claim 6, wherein said distillation mechanism (50) further comprises a transparent glass cover which is arranged at the top position of street lamp type public facilities and wraps the distillation platform (502).

9. The regional rainwater storage and purification transportation type sponge city management system according to claim 7, wherein the distillation mechanism (50) further comprises an animal water supply pipe (507), an animal water bin (508) and a drinking water head (509), wherein the animal water supply pipe (507) is respectively connected with the distillation bin (505) and the animal water bin (508) and is used for guiding the liquid in the distillation bin (505) into the animal water bin (508); the animal water bin (508) is arranged at the bottom end of a street lamp type public facility and is used for storing distilled water for animals to drink; the drinking head (509) is arranged below the animal water bin (508) and connected with the animal water bin (508) for supplying water for the animals.

10. The city management system for regional rainwater storage and purification transportation sponges as claimed in claim 9, wherein a lick ball (510) is disposed at a front end of the drinking head (509), and the lick ball (510) is disposed at a front end of the drinking head (509) for animals to lick and lead out distilled water at the position of the drinking head (509).

Images